Raman Spectroscopy of isolated double wall carbon nanotubes with different metallic and semiconducting configurations.

ORAL

Abstract

We have developed an experimental technique to obtain the Raman spectra from individual double wall carbon nanotubes (DWNT). A chemical vapor deposition (CVD) derived sample of DWNTs is dispersed into solution and placed on a Si substrate. The Si substrate contains lithographic markers that allow us to record the exact location of individual and isolated DWNTs and obtain their Raman spectra with various laser energies. The laser energy can be in resonance with the inner and/or the outer layers of the same DWNT. We report on the differences between individual DWNTs with different metallic and semiconducting configurations and compare our results to previous experiments performed on DWNT bundles.

Authors

  • Federico Villalpando

    Department of Materials Science and Engineering, MIT.

  • Daniel Nezich

    Massachusetts Institute of Technology, Department of Physics, MIT

  • Yoong Ahm Kim

    Faculty of Engineering, Shinshu University.

  • Daisuke Shimamoto

    Faculty of Engineering,Shinshu University

  • Hiroyuki Muramatsu

    Institute of Carbon Science and Technology, Shinshu University

  • Takuya Hayashi

    Faculty of Engineering, Shinshu University

  • Jing Kong

    Massachusetts Institute of Technology, MIT, Department of Electrical Engineering and Computer Science, MIT

  • Endo Morinobu

    Faculty of Engineering, Shinshu University, Shinshu University, Japan

  • Mauricio Terrones

    Advanced Materials Department, IPICYT

  • Mildred Dresselhaus

    Massachusetts Institute of Technology, MIT, Department of Physics and 2. Department of Electrical Engineering and Computer Science, MIT, ECCS, MIT, USA